Research Article
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Year 2022, Volume: 7 Issue: 2, 127 - 141, 29.12.2022
https://doi.org/10.58559/ijes.1177950

Abstract

References

  • [1] Kennedy KM, Ruggles TH, Rinaldi K, Dowling JA, Duan L, Caldeira K, Lewis NS. The role of concentrated solar power with thermal energy storage in least-cost highly reliable electricity systems fully powered by variable renewable energy. Advances in Applied Energy 2022; 6: 100091.
  • [2] Shaaban M, Petinrin J. Renewable Energy Potential in Nigeria: Meeting rural energy needs. Renewable and Sustainable Energy Review 2014; 29, 72-84.
  • [3] Lawal KT. Rural Electricifation and the Uptake Energy in Nigeria: Lessons from Kenya. Principal Partner and head Energy & Natural Resources and Environmental Practice Groups 2022; 1(2):59-72.
  • [4] Ozoegwu CG, Mgbemene CA, Ozor PA. The status of solar energy integration and policy in Nigeria. Renewable and Sustainable Energy Reviews 2017; 70: 457-471.
  • [5] Chanchangi YN, Adu F, Ghosh A. Nigeria's energy review: Focusing on solar energy potential and penetration. Environ Dev Sustainability 2022; 1-42.
  • [6] Jones GG, Bouamane L.Power from Sunshine: A Business History of Solar Energy. Harvard Business School Working Paper Series 2012.
  • [7] Anderson WW, Chai YG. Becquerel effect solar cell. Energy Conversion 1976; 15(3-4): 85-94.
  • [8] Amo-Aidoo A, Kumi EN, Hensel O, Korese JK, Sturm B. Solar energy policy implementation in Ghana: A LEAP model analysis. Scientific African 2022; e01162.
  • [9] Ondraczek J. The sun rises in the east (of Africa): A comparison of the development and status of solar energy markets in Kenya and Tanzania. Energy Policy 2013; 56: 407-417.
  • [10] Acker RH, Kammen DM. The quiet (energy) revolution: Analysing the issemination of photovoltaic power systems in Kenya. Energy Policy 1996; 24(1): 81-111.
  • [11] Ojosu JO. The iso-radiation map for Nigeria. Solar and Wind Technology 1990; 7(5): 563-575.
  • [12] Oseni MO. Improving households’ access to electricity and energy consumption pattern in Nigeria: Renewable energy alternative. Renewable and Sustainable Energy Reviews 2012; 16(6): 3967- 3974.
  • [13] Chineke TC, Ezike FM. Political will and collaboration for electric power reform through renewable energy in Africa. Energy Policy 2010; 38(1): 678-684.
  • [14] Adeoti O, Oyewole BA, Adegboyega TD. Solar photovoltaic-based home electrification system for rural development in Nigeria: domestic load assessment. Renewable Energy 2001; 24(1):155- 161.
  • [15] Olukoju A. Never Expect Power Always’: Electricity consumers' response to monopoly, corruption and inefficient services in Nigeria. African Affairs 2004; 103(410): 51-71.
  • [16] Nwokocha CO, Okoro UK, Usoh CI. Photovoltaics in Nigeria – Awareness, attitude and expected benefit based on a qualitative survey across regions. Renewable Energy 2018; 116:176-182.
  • [17] Ukachukwu O. Rural area power supply in Nigeria: A cost comparison of the photovoltaic, diesel/gasoline generator and grid utility options. Renewable Energy 2003; 28(13): 2089-2098.
  • [18] Abdullahi N, Garba MB, Tanbuwal SA. The Promise of Photovoltaic Solar Energy: An Outline for Electrical Energy Feasibility in Nigeria. Sospoly Journal of Engineering 2021.
  • [19] Okojie P, Momoh A. Corruption and Reform in Nigeria. In Corruption and Development. algrave Macmillan, London, 2007.
  • [20] Energy Commission of Nigeria. National Renewable Energy And Energy Efficiency Policy (NREEP). Federal Ministry of Science and Technology Report; 2014.
  • [21] Wojuola RN, Alant BP. Public perceptions about renewable energy technologies in Nigeria. African Journal of Science, Technology, Innovation and Development 2017; 9(4):399-409.
  • [22] Adenikinju AF. Electric infrastructure failures in Nigeria: a survey-based analysis of the costs and adjustment responses. Energy Policy 2003; 31(14):1519-1530.
  • [23] Okoye FN, Durgaprasad J, Singh NB. Effect of silica fume on the mechanical properties of fly ash based-geopolymer concrete. Ceramics International 2016; 42(2): 3000-3006.
  • [24] Dunmade I. Hybridizing Renewable Energy Systems in Nigeris: A contextual framework for their sustainability assessment. European Journal of Engineering and Technology 2016; 4(5).
  • [25] Ram M, Aghahosseini A, Breyer C. Job creation during the global energy transition towards 100% renewable power system by 2050. Technological Forecasting and Social Change 2020; 151: 119682.
  • [26] Wu Y, Li C, Tian Z, Sun J. Solar-driven integrated energy systems: State of the art and challenges. Journal of Power Sources 2020; 478:228762.

The challenges and serviceability of solar power: suggestion on solving the Nigeria energy crisis

Year 2022, Volume: 7 Issue: 2, 127 - 141, 29.12.2022
https://doi.org/10.58559/ijes.1177950

Abstract

For long decades, Nigeria has the highest population in Africa and has been struggling by slow economic growth, poor GDP per capita, high unemployment, and a host of other problems.These problems affect the country's energy sector which in turn leads to a negative crisis feedback loop. The Nigeria energy sector has been labeled by both its citizens and foreigners as a total failure in terms of economic perspective. Despite the continuous government investment over the years, there has been a slight growth in the sector with an ever-rising demand due to its population explosion, leading to a total breakdown across Nigeria economic and industrial development. This study aims to examine how the country can maximize its full energy potential by turning towards the vast quantities of solar resources at its disposal. A review of the nation’s solar energy policies was done with the aim to identify the barriers hindering the country’s solar development, the serviceability of solar energy to the country. Researchers attempt to demonstrate Nigeria's energy gains through the incorporation of solar energy into the country's energy resources.

References

  • [1] Kennedy KM, Ruggles TH, Rinaldi K, Dowling JA, Duan L, Caldeira K, Lewis NS. The role of concentrated solar power with thermal energy storage in least-cost highly reliable electricity systems fully powered by variable renewable energy. Advances in Applied Energy 2022; 6: 100091.
  • [2] Shaaban M, Petinrin J. Renewable Energy Potential in Nigeria: Meeting rural energy needs. Renewable and Sustainable Energy Review 2014; 29, 72-84.
  • [3] Lawal KT. Rural Electricifation and the Uptake Energy in Nigeria: Lessons from Kenya. Principal Partner and head Energy & Natural Resources and Environmental Practice Groups 2022; 1(2):59-72.
  • [4] Ozoegwu CG, Mgbemene CA, Ozor PA. The status of solar energy integration and policy in Nigeria. Renewable and Sustainable Energy Reviews 2017; 70: 457-471.
  • [5] Chanchangi YN, Adu F, Ghosh A. Nigeria's energy review: Focusing on solar energy potential and penetration. Environ Dev Sustainability 2022; 1-42.
  • [6] Jones GG, Bouamane L.Power from Sunshine: A Business History of Solar Energy. Harvard Business School Working Paper Series 2012.
  • [7] Anderson WW, Chai YG. Becquerel effect solar cell. Energy Conversion 1976; 15(3-4): 85-94.
  • [8] Amo-Aidoo A, Kumi EN, Hensel O, Korese JK, Sturm B. Solar energy policy implementation in Ghana: A LEAP model analysis. Scientific African 2022; e01162.
  • [9] Ondraczek J. The sun rises in the east (of Africa): A comparison of the development and status of solar energy markets in Kenya and Tanzania. Energy Policy 2013; 56: 407-417.
  • [10] Acker RH, Kammen DM. The quiet (energy) revolution: Analysing the issemination of photovoltaic power systems in Kenya. Energy Policy 1996; 24(1): 81-111.
  • [11] Ojosu JO. The iso-radiation map for Nigeria. Solar and Wind Technology 1990; 7(5): 563-575.
  • [12] Oseni MO. Improving households’ access to electricity and energy consumption pattern in Nigeria: Renewable energy alternative. Renewable and Sustainable Energy Reviews 2012; 16(6): 3967- 3974.
  • [13] Chineke TC, Ezike FM. Political will and collaboration for electric power reform through renewable energy in Africa. Energy Policy 2010; 38(1): 678-684.
  • [14] Adeoti O, Oyewole BA, Adegboyega TD. Solar photovoltaic-based home electrification system for rural development in Nigeria: domestic load assessment. Renewable Energy 2001; 24(1):155- 161.
  • [15] Olukoju A. Never Expect Power Always’: Electricity consumers' response to monopoly, corruption and inefficient services in Nigeria. African Affairs 2004; 103(410): 51-71.
  • [16] Nwokocha CO, Okoro UK, Usoh CI. Photovoltaics in Nigeria – Awareness, attitude and expected benefit based on a qualitative survey across regions. Renewable Energy 2018; 116:176-182.
  • [17] Ukachukwu O. Rural area power supply in Nigeria: A cost comparison of the photovoltaic, diesel/gasoline generator and grid utility options. Renewable Energy 2003; 28(13): 2089-2098.
  • [18] Abdullahi N, Garba MB, Tanbuwal SA. The Promise of Photovoltaic Solar Energy: An Outline for Electrical Energy Feasibility in Nigeria. Sospoly Journal of Engineering 2021.
  • [19] Okojie P, Momoh A. Corruption and Reform in Nigeria. In Corruption and Development. algrave Macmillan, London, 2007.
  • [20] Energy Commission of Nigeria. National Renewable Energy And Energy Efficiency Policy (NREEP). Federal Ministry of Science and Technology Report; 2014.
  • [21] Wojuola RN, Alant BP. Public perceptions about renewable energy technologies in Nigeria. African Journal of Science, Technology, Innovation and Development 2017; 9(4):399-409.
  • [22] Adenikinju AF. Electric infrastructure failures in Nigeria: a survey-based analysis of the costs and adjustment responses. Energy Policy 2003; 31(14):1519-1530.
  • [23] Okoye FN, Durgaprasad J, Singh NB. Effect of silica fume on the mechanical properties of fly ash based-geopolymer concrete. Ceramics International 2016; 42(2): 3000-3006.
  • [24] Dunmade I. Hybridizing Renewable Energy Systems in Nigeris: A contextual framework for their sustainability assessment. European Journal of Engineering and Technology 2016; 4(5).
  • [25] Ram M, Aghahosseini A, Breyer C. Job creation during the global energy transition towards 100% renewable power system by 2050. Technological Forecasting and Social Change 2020; 151: 119682.
  • [26] Wu Y, Li C, Tian Z, Sun J. Solar-driven integrated energy systems: State of the art and challenges. Journal of Power Sources 2020; 478:228762.
There are 26 citations in total.

Details

Primary Language English
Subjects Energy Systems Engineering (Other), Industrial Engineering
Journal Section Research Article
Authors

Ayşe Tansu 0000-0001-8855-4902

Ayomide Titus Ogungbemi This is me

Fatma Tansu Hocanın This is me

Publication Date December 29, 2022
Submission Date September 20, 2022
Acceptance Date November 9, 2022
Published in Issue Year 2022 Volume: 7 Issue: 2

Cite

APA Tansu, A., Ogungbemi, A. T., & Tansu Hocanın, F. (2022). The challenges and serviceability of solar power: suggestion on solving the Nigeria energy crisis. International Journal of Energy Studies, 7(2), 127-141. https://doi.org/10.58559/ijes.1177950
AMA Tansu A, Ogungbemi AT, Tansu Hocanın F. The challenges and serviceability of solar power: suggestion on solving the Nigeria energy crisis. Int J Energy Studies. December 2022;7(2):127-141. doi:10.58559/ijes.1177950
Chicago Tansu, Ayşe, Ayomide Titus Ogungbemi, and Fatma Tansu Hocanın. “The Challenges and Serviceability of Solar Power: Suggestion on Solving the Nigeria Energy Crisis”. International Journal of Energy Studies 7, no. 2 (December 2022): 127-41. https://doi.org/10.58559/ijes.1177950.
EndNote Tansu A, Ogungbemi AT, Tansu Hocanın F (December 1, 2022) The challenges and serviceability of solar power: suggestion on solving the Nigeria energy crisis. International Journal of Energy Studies 7 2 127–141.
IEEE A. Tansu, A. T. Ogungbemi, and F. Tansu Hocanın, “The challenges and serviceability of solar power: suggestion on solving the Nigeria energy crisis”, Int J Energy Studies, vol. 7, no. 2, pp. 127–141, 2022, doi: 10.58559/ijes.1177950.
ISNAD Tansu, Ayşe et al. “The Challenges and Serviceability of Solar Power: Suggestion on Solving the Nigeria Energy Crisis”. International Journal of Energy Studies 7/2 (December 2022), 127-141. https://doi.org/10.58559/ijes.1177950.
JAMA Tansu A, Ogungbemi AT, Tansu Hocanın F. The challenges and serviceability of solar power: suggestion on solving the Nigeria energy crisis. Int J Energy Studies. 2022;7:127–141.
MLA Tansu, Ayşe et al. “The Challenges and Serviceability of Solar Power: Suggestion on Solving the Nigeria Energy Crisis”. International Journal of Energy Studies, vol. 7, no. 2, 2022, pp. 127-41, doi:10.58559/ijes.1177950.
Vancouver Tansu A, Ogungbemi AT, Tansu Hocanın F. The challenges and serviceability of solar power: suggestion on solving the Nigeria energy crisis. Int J Energy Studies. 2022;7(2):127-41.